Subtitles and Transcript

Lisa Harouni

0:11
It is actually a reality todaythat you can download products from the Web --product data, I should say, from the Web --perhaps tweak it and personalize itto your own preference or your own taste,and have that information sentto a desktop machinethat will fabricate it for you on the spot.We can actually build for you,very rapidly,a physical object.And the reason we can do thisis through an emerging technologycalled additive manufacturing,or 3D printing.

0:50
This is a 3D printer.They have been aroundfor almost 30 years now,which is quite amazing to think of,but they're only just startingto filter into the public arena.And typically, you would take data,like the data of a pen here,which would be a geometric representation of that product in 3D,and we would pass that data with materialinto a machine.And a process that would happen in the machinewould mean layer by layer that product would be built.And we can take out the physical product,and ready to use,or to, perhaps, assemble into something else.

1:27
But if these machines have been around for almost 30 years,why don't we know about them?Because typically they've been too inefficient,inaccessible,they've not been fast enough,they've been quite expensive.But today,it is becoming a realitythat they are now becoming successful.Many barriers are breaking down.That means that you guyswill soon be able to access one of these machines,if not this minute.And it will change and disruptthe landscape of manufacturing,and most certainly our lives, our businessesand the lives of our children.

2:06
So how does it work?It typically reads CAD data,which is a product design datacreated on professional product design programs.And here you can see an engineer --it could be an architect or it could be a professional product designer --create a product in 3D.And this data gets sent to a machinethat slices the datainto two-dimensional representations of that productall the way through --almost like slicing it like salami.And that data, layer by layer, gets passed through the machine,starting at the base of the productand depositing material, layer upon layer,infusing the new layer of materials to the old layerin an additive process.And this material that's depositedeither starts as a liquid formor a material powder form.And the bonding process can happenby either melting and depositing or depositing then melting.In this case, we can see a laser sintering machine developed by EOS.It's actually using a laserto fuse the new layer of material to the old layer.And over time --quite rapidly actually, in a number of hours --we can build a physical product,ready to take out of the machine and use.And this is quite an extraordinary idea,but it is reality today.

3:25
So all these products that you can see on the screenwere made in the same way.They were all 3D printed.And you can see,they're ranging from shoes,rings that were made out of stainless steal,phone covers out of plastic,all the way through to spinal implants, for example,that were created out of medical-grade titanium,and engine parts.But what you'll notice about all of these productsis they're very, very intricate.The design is quite extraordinary.Because we're taking this data in 3D form,slicing it up before it gets past the machine,we can actually create structuresthat are more intricatethan any other manufacturing technology --or, in fact, are impossible to build in any other way.And you can create parts with moving components,hinges, parts within parts.

4:17
So in some cases, we can abolish totallythe need for manual labor.It sounds great.It is great.We can have 3D printers todaythat build structures like these.This is almost three meters high.And this was builtby depositing artificial sandstone layer upon layerin layers of about five millimeters to 10 mm in thickness --slowly growing this structure.This was created by an architectural firm called Shiro.And you can actually walk into it.And on the other end of the spectrum,this is a microstructure.It's created depositing layersof about four microns.So really the resolution is quite incredible.The detail that you can get todayis quite amazing.

5:06
So who's using it?Typically, because we can create products very rapidly,it's been used by product designers,or anyone who wanted to prototype a productand very quickly create or reiterate a design.And actually what's quite amazing about this technology as wellis that you can create bespoke products en masse.There's very little economies of scale.So you can now create one-offs very easily.Architects, for example,they want to create prototypes of buildings.Again you can see,this is a building of the Free University in Berlinand it was designed by Foster and Partners.Again, not buildable in any other way.And very hard to even create this by hand.

5:52
Now this is an engine component.It was developed by a company called Within Technologiesand 3T RPD.It's very, very, very detailedinside with the design.Now 3D printingcan break away barriers in designwhich challenge the constraintsof mass production.If we slice into this product which is actually sitting here,you can see that it has a number of cooling channels pass through it,which means it's a more efficient product.You can't create this with standard manufacturing techniqueseven if you tried to do it manually.It's more efficientbecause we can now create all these cavities within the objectthat cool fluid.And it's used by aerospaceand automotive.It's a lighter partand it uses less material waste.So it's overall performance and efficiencyjust exceeds standard mass produced products.

6:51
And then taking this ideaof creating a very detailed structure,we can apply it to honeycomb structuresand use them within implants.Typically an implantis more effective within the bodyif it's more porous,because our body tissue will grow into it.There's a lower chance of rejection.But it's very hard to create that in standard ways.With 3D printing,we're seeing todaythat we can create much better implants.And in fact, because we can createbespoke products en masse, one-offs,we can create implantsthat are specific to individuals.

7:29
So as you can see,this technology and the quality of what comes out of the machines is fantastic.And we're starting to see it being usedfor final end products.And in fact, as the detail is improving,the quality is improving,the price of the machines are fallingand they're becoming quicker.They're also now small enoughto sit on a desktop.You can buy a machine today for about $300that you can create yourself,which is quite incredible.

7:58
But then it begs the question,why don't we all have one in our home?Because, simply, most of us here todaydon't know how to create the datathat a 3D printer reads.If I gave you a 3D printer,you wouldn't know how to direct itto make what you want it to.But there are more and moretechnologies, software and processes todaythat are breaking down those barriers.I believe we're at a tipping pointwhere this is now somethingthat we can't avoid.This technologyis really going to disruptthe landscape of manufacturingand, I believe, cause a revolutionin manufacturing.

8:38
So today,you can download products from the Web --anything you would have on your desktop,like pens, whistles, lemon squeezers.You can use software like Google SketchUpto create products from scratchvery easily.3D printing can be also usedto download spare parts from the Web.So imagine you have, say,a Hoover in your homeand it has broken down. You need a spare part,but you realize that Hoover's been discontinued.Can you imagine going online --this is a reality --and finding that spare partfrom a database of geometriesof that discontinued productand downloading that information, that data,and having the product made for you at home,ready to use, on your demand?And in fact, because we can create spare partswith things the machinesare quite literally making themselves.You're having machines fabricate themselves.These are parts of a RepRap machine,which is a kind of desktop printer.

9:42
But what interests my company the mostis the fact that you can createindividual unique products en masse.There's no need to do a runof thousands of millionsor send that product to be injection molded in China.You can just make it physically on the spot.Which meansthat we can now present to the publicthe next generation of customization.This is something that is now possible today,that you can direct personallyhow you want your products to look.

10:15
We're all familiar with the ideaof customization or personalization.Brands like Nike are doing it.It's all over the Web.In fact, every major household nameis allowing youto interact with their productson a daily basis --all the way from Smart Carsto Pradato Ray Ban, for example.But this is not really mass customization;it's known as variant production,variations of the same product.What you could do is really influence your product nowand shape-manipulate your product.

10:50
I'm not sure about you guys,but I've had experienceswhen I've walked into a store and I've know exactly what I've wantedand I've searched everywhere for that perfect lampthat I know where I want to sit in my houseand I just can't find the right thing,or that perfect piece of jewelryas a gift or for myself.Imagine that you can nowengage with a brandand interact,so that you can pass your personal attributesto the products that you're about to buy.

11:22
You can todaydownload a product with software like this,view the product in 3D.This is the sort of 3D datathat a machine will read.This is a lamp.And you can start iterating the design.You can direct what color that product will be,perhaps what material.And also, you can engage in shape manipulation of that product,but within boundaries that are safe.Because obviously the public are not professional product designers.The piece of software will keep an individualwithin the bounds of the possible.And when somebody is ready to purchase the productin their personalized design,they click "Enter" and this data gets convertedinto the data that a 3D printer readsand gets passed to a 3D printer,perhaps on someone's desktop.

12:14
But I don't think that that's immediate.I don't think that will happen soon.What's more likely, and we're seeing it today,is that data gets sentto a local manufacturing center.This means lower carbon footprint.We're now, instead of shipping a product across the world,we're sending data across the Internet.Here's the product being built.You can see, this came out of the machine in one pieceand the electronics were inserted later.It's this lamp, as you can see here.So as long as you have the data,you can create the part on demand.

12:45
And you don't necessarily need to use thisfor just aesthetic customization,you can use it for functional customization,scanning parts of the bodyand creating things that are made to fit.So we can run this through to something like prosthetics,which is highly specialized to an individual's handicap.Or we can create very specific prostheticsfor that individual.Scanning teeth today,you can have your teeth scannedand dental coatings made in this way to fit you.While you wait at the dentist,a machine will quietly be creating this for youready to insert in the teeth.

13:20
And the idea of now creating implants,scanning data, an MRI scan of somebodycan now be converted into 3D dataand we can create very specific implants for them.And applying thisto the idea of building up what's in our bodies.You know, this is pair of lungs and the bronchial tree.It's very intricate.You couldn't really create this or simulate it in any other way.But with MRI data,we can just build the product,as you can see, very intricately.Using this process,pioneers in the industry are layering up cells today.So one of the pioneers, for example, is Dr. Anthony Atala,and he has been workingon layering cells to create body parts --bladders, valves, kidneys.Now this is not something that's ready for the public,but it is in working progress.

14:13
So just to finalize, we're all individual.We all have different preferences, different needs.We like different things.We're all different sizes and our companies the same.Businesses want different things.Without a doubt in my mind,I believe that this technologyis going to cause a manufacturing revolutionand will change the landscape of manufacturing as we know it.